KR20130091108A - Casing device for lighting apparatus using led - Google Patents

Abstract

The present invention relates to a casing device of a modular LED luminaire, and more specifically, to a housing structure for casing the modular LED luminaire to be organically assembled between the parts without using a welding process structurally the housing material Modular LEDs enable a wide range of selectivity, weight savings, and simplify manufacturing processes in manufacturing, standardization and sharing of various specifications, and low-cost manufacturing, while freely improving the heat dissipation performance that is functionally related to the life of LED devices. A casing device for a luminaire.
The present invention includes a window panel 220 formed on the front cover 200 and formed with at least one transmission hole 210 to transmit light emitted from the LED lighting module 100; A side frame 400 which finishes the edge of the window panel 220 in a form surrounding the edge of the window panel 220; A connector (500) for connecting and connecting the side frames (400) to each other in order to interconnect the end nodes of the respective side frames (400) coupled to the circumferential surface of the window panel (220) and maintain their connection state; And a heat sink pass hole 310 formed in the back cover 300 to increase heat dissipation by exposing the heat sinks 130 of the LED lighting module 100 to the outside.

Description

Casing device for modular LED lighting fixtures {CASING DEVICE FOR LIGHTING APPARATUS USING LED}

The present invention relates to a casing device of a modular LED luminaire, and more specifically, to a housing structure for casing the modular LED luminaire to be organically assembled between the parts without using a welding process structurally the housing material Modular LEDs enable a wide range of selectivity, weight savings, and simplify manufacturing processes in manufacturing, standardization and sharing of various specifications, and low-cost manufacturing, while freely improving the heat dissipation performance that is functionally related to the life of LED devices. A casing device for a luminaire.

In general, the fluorescent lamp is a tubular shape sealed by applying a fluorescent material and argon gas and mercury vapor in it. When electricity is supplied to the tube, the bimetal in the tube is heated and turned on. When discharge begins, the tube current gradually increases and destroys the electrode, so a ballast is used to limit the current to a certain value or less.

The frequency range of the fluorescent lamp is driven by using 60Hz, which causes the light of the fluorescent lamp to flicker about 60 times per second, which increases eye fatigue when used for a long time and increases the ambient temperature due to self-heating, resulting in power loss. There is a disadvantage that the fluorescent lamp is broken. Lamps such as fluorescent lamps not only have a high temperature rise and high power loss, but also have a short lifespan.

Lighting devices that utilize LED elements as light sources are known to be more economical in converting electric power to light than light sources such as fluorescent lamps and incandescent lamps, and have high light efficiency compared to unit power. As much light as desired can be obtained even at low voltage, it is excellent in stability and its use is increasing as a lamp.

LED lamps consume only about 20% of the power compared to fluorescent lamps using fluorescent materials. It is classified as an eco-friendly light emitting device because it has a life span of about 10 years and no heavy metals such as lead or mercury.

LED has a high efficiency of converting electric power to light, but the light emitting part is composed of semiconductor devices, so it is relatively weak to heat compared to light emitting devices such as incandescent lamps using filaments or fluorescent lamps using cathode rays.

In addition, performance may be degraded due to thermal stress caused by self heat generated from the light emitting device during long time use. Therefore, in order to send large current to the LED, the heat dissipation structure for effectively dissipating the generated heat becomes an important factor.

On the other hand, luminaires using LED devices can be classified into fluorescent lamps or downlights according to the beam diffusion method of the LED devices used as the light source. Fluorescent lamps exhibit beam diffusion induction in all directions. It is a surface emitting method that guides one side to appear as a center.

The surface-emitting modular LED luminaires are configured to induce surface luminescence by casing the LED module and electrical components into a housing.

Looking at the conventional housing structure for casing the LED module and the electrical components in detail as follows.

First, the casing housing is manufactured primarily through sheet metal work. Accordingly, it is difficult to manufacture the housing by accurately matching the shape and dimensions of the housing.

Second, when casing the modular LED lighting fixture using the housing made through sheet metal work, the modular LED lighting fixture is cased through a separate welding operation, which requires complicated welding work and uniformity due to the welding work tolerance. There was a problem that it is difficult to produce the product repeatedly. In addition, the welding cost is additionally generated because the welding must be performed after the housing is bent.

Third, when casing by sheet metal work, it is difficult to repeatedly produce products of various specifications and specifications.

Fourth, it is difficult to use a material such as aluminum having excellent heat dissipation performance as the casing material. Although the aluminum material is light and has the excellent thermal conductivity required to maintain the heat dissipation performance in the LED lighting fixture, there is a problem that the casing itself is not made of a heat dissipation structure using aluminum material because sheet metal work and welding work are impossible.

Fifth, it is impossible to use the casing according to the capacity of the modular LED lighting fixtures.

The present invention has been devised to solve such a conventional problem, and provides a casing device that can be commonly used according to capacity by allowing a housing structure for casing a modular LED luminaire to be organically assembled between parts without using a welding process. Its purpose is to.

Another object of the present invention is to select a casing material having a good thermal conductivity, such as aluminum to heat the structure of the casing itself structure to increase the heat dissipation performance of the modular LED lighting fixture to extend the life of the LED lighting fixture. The purpose is.

Still another object of the present invention is to provide a casing apparatus that can realize a simplified manufacturing process and low cost manufacturing for a casing of an LED lighting fixture.

Casing device of a modular LED lighting device according to the present invention for achieving this object, the LED lighting module including a substrate with a heat sink coupled to the LED element, and the front of the LED element in front of the LED lighting module In the casing device of the modular LED lighting device comprising a front cover to cover and protect, and a back cover covering the back of the LED lighting module,

A window panel formed on the front cover and having at least one transmission hole formed therein to transmit light emitted from the LED lighting module;

A side frame which finishes the edge of the window panel in a form surrounding the edge of the window panel;

A connector that connects and connects the side frames with each other to interconnect and maintain end nodes of the respective side frames coupled to the circumferential surface of the window panel;

And a heat sink through hole formed in the back cover to increase heat dissipation by exposing the heat sinks of the LED lighting module to the outside.

In addition, a shaft pin is protruded from the rear surface of the window panel to be coupled to the back cover located at the rear part through the substrate of the LED module. ) Is formed by centering.

In addition, the side frame is seated along each side surface of the window panel has a front flange for supporting and fixing the window panel, the rear side that can be coupled to the back cover in close contact with the LED lighting module seated on the opposite side Consists of a flange, characterized in that configured to form a guide rail that can be fitted by sliding the connector on both ends.

In addition, the connector for connecting and coupling the end of the side frame is formed of a body bent in a 'b' shape for coupling and connecting the ends of the side frame to each other, both ends of the body guide of the side frame The slide rail to be fitted to the rail is configured in a shape corresponding to both ends is characterized in that the side frame is configured to slide coupling in one-touch through a connector.

In addition, the rear portion of the back cover is configured by installing a connecting bracket coupled to the side frame is supported, characterized in that the mounting bracket is configured by mounting a mounting bracket.

In addition, both sides of the mounting bracket is coupled to the hinge shaft so as to be rotatable with the connecting bracket and the hinge shaft is formed on the periphery of the hinge shaft to be configured to adjust the rotation angle along the hinge pin on the side of the connecting bracket do.

In addition, by installing a separate protective cover on the back of the back cover is configured to prevent external foreign material inflow and to protect the heat dissipation unit, the protective cover to form a heat radiation vent to maintain the heat exchange performance to maintain heat exchange performance It is characterized in that configured to.

The present invention enables to assemble organically between the parts of the housing structure for casing the modular LED lighting fixture without using a welding process, the structure is effective in implementing a variety of selectivity, lightweight of the housing material.

In addition, the housing manufacturing for the casing of the modular LED luminaires can simplify the manufacturing process of each component, produce various types of products, and make low-cost manufacturing, and at the same time improve the heat dissipation performance related to the life of the LED elements. .

In addition, casing parts are made of aluminum and can be continuously manufactured by extrusion press method, so that parts can be used for dimension change according to LED module capacity and casings of various specifications can be completed without additional cost due to dimension change. It works.

1 is an exploded perspective view of the front direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of the back direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention.
Figure 3 is an exploded perspective view showing the front lower direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention.
Figure 4 is an exploded perspective view showing the back at the direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention.
5 is a front view of the casing state of the modular LED lighting fixture according to an embodiment of the present invention.
Figure 6 is a side view of the casing state of the modular LED lighting fixture according to an embodiment of the present invention.
7 is a plan view of the casing state of the modular LED lighting fixture according to an embodiment of the present invention.
8 is a perspective view of a modular LED lighting fixture casing state according to an embodiment of the present invention.
9 is a state diagram of part of the cut-out casing of the modular LED lighting fixture according to an embodiment of the present invention.
10 is a perspective view for explaining a mounting bracket according to an embodiment of the present invention.
11 is a perspective view of a modular LED lighting fixture according to an embodiment of the present invention.
12 is a view showing a state of the LED lighting fixture casing according to another embodiment of the present invention (a) is a front view, (b) one side view, (c) is a plan view.
Figure 13 is a perspective view showing the LED lighting fixture casing state according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is an exploded perspective view of the front direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention. Figure 2 is an exploded perspective view of the back direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention. Figure 3 is an exploded perspective view showing the front lower direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention. Figure 4 is an exploded perspective view showing the back at the direction for explaining the configuration of the casing device of the modular LED lighting fixture according to an embodiment of the present invention. 5 is a front view of the casing state of the modular LED lighting fixture according to an embodiment of the present invention. 6 is a side view of a casing state of the modular LED lighting fixture according to an embodiment of the present invention. 7 is a plan view of the casing state of the modular LED lighting fixture according to an embodiment of the present invention. 8 is a perspective view of a modular LED lighting fixture casing state according to an embodiment of the present invention. FIG. 9 is a partially cutaway casing state diagram of the modular LED lighting fixture according to an embodiment of the present invention. 10 is a perspective view for explaining a mounting bracket according to an embodiment of the present invention. 11 is a perspective view of a modular LED lighting fixture according to an embodiment of the present invention. 12 is a view showing an LED lighting device casing state according to another embodiment of the present invention, (a) is a front view, (b) is one side view, and (c) is a plan view. Figure 13 is a perspective view showing the LED lighting fixture casing state according to another embodiment of the present invention.

Casing device of the modular LED lighting fixture according to an embodiment of the present invention, as shown in Figure 1 to 11, the LED including a substrate 120 is coupled to the heat sink 130 and the LED element 110 is arranged Illumination module 100, the front cover 200 to cover and protect the front of the LED element 110 in front of the LED lighting module 100, and the back cover covering the back of the LED lighting module 100 ( 300 is composed of a casing device of a modular LED lighting fixture.

The main part is formed of the window panel 220 formed on the front cover 200 and formed with at least one transmission hole 210 to transmit light emitted from the LED lighting module 100.

The side frame 400 finishes the edge of the window panel 220 to surround the edge of the window panel 220.

In addition, the connector 500 is configured to connect the side frames 400 to each other in order to interconnect the end nodes of the side frames 400 coupled to the circumferential surface of the window panel 220 and maintain the connection state. do.

Then, the heat dissipation plate 130 of the LED lighting module 100 is exposed to the outside to increase the heat dissipation performance is composed of a heat sink pass hole 310 formed in the back cover 300.

In addition, a shaft pin 230 protruding from the rear surface of the window panel 220 and coupled to the back cover 300 positioned at a rear portion of the LED module 100 passes through the substrate 110. The pin hole 320 is formed at the corresponding position so that the shaft pin 230 is fitted and fixed to the 300.

In addition, the side frame 400 is seated along each side surface of the window panel 220 has a front flange 410 for supporting and fixing the window panel 200, the rear side of the opposite side seats the LED lighting module 100 It consists of a rear flange 420 that can be coupled to the back cover 300 in close contact, and is formed by forming a guide rail 430 on both ends to slide the connector 500.

In addition, the connector 500 for connecting and coupling the end of the side frame 400 is formed of a body bent in a 'b' shape in order to connect the end of the side frame 400 by connecting to each other, both ends of the body The slide rail 510 fitted to the guide rail 430 of the side frame 400 is configured in a shape corresponding to both ends is configured to slide the side frame 400 in one-touch through the connector 500. .

In addition, the rear portion of the back cover 300 is configured by installing the connection bracket 610 is coupled to the side frame 400 is supported, the mounting bracket 610 is configured by mounting the mounting bracket 600. .

In addition, both sides of the mounting bracket 600 is coupled to the hinge shaft so as to be rotatable with the connecting bracket 610 and the hinge pin (side) of the hinge bracket (610) by forming a hinge groove 630 on the periphery of the hinge shaft ( 640 is configured to adjust the rotation angle along.

Another embodiment of the modular LED lighting fixture casing device of the present invention is to install a separate protective cover 800 on the back of the back cover 300 as shown in Figure 12 to prevent foreign foreign material inflow and protect the heat dissipation It consists of.

12 and 13, the protective cover 800 installed on the back of the back cover 300 has heat dissipation vents 810 installed to maintain heat exchange performance, and is mainly connected to the connection bracket 610. The rear cover 300 and the heat dissipation plate 130 are arranged on both sides to serve to cover the inner surface of the back cover 300 so as not to be exposed to the outside, thereby preventing the inflow of foreign substances and protecting the heat dissipation plate 130.

Reference numeral 700 denotes a 'front glass', and 520 denotes a 'glass holder' for fixing the front glass in close contact with the front surface of the connector 500.

The casing device according to the present invention is for casing a surface-emitting modular LED lighting fixture can be mass-produced by standardizing the casing parts by press extrusion using a material having excellent heat dissipation, such as aluminum material, each of the components to the capacity of the LED It can be shared accordingly.

The main parts for the casing of the LED lighting module 100 is the front cover 200 and the LED lighting to cover and protect the front of the LED element 110 in front of the LED lighting module 100, as shown in Figs. As the back cover 300 covering the back of the module 100, an aluminum material is used to standardize to the intended size through a pressing process.

The transmission hole 210 for transmitting the light irradiated from the LED lighting module 100 is formed in the window panel 220 by one pressing process in a desired size and shape.

The window panel 220 is coupled to the side frame 400. Similarly, the side frame 400 is also manufactured to be seated on the window panel 220 by forming a single pressing process using an aluminum material.

The LED lighting module 100 is fixed through the side frame 400 at a position where light can be irradiated through the transmission hole 210 formed in the window panel 220.

End nodes of the respective side frames 400 coupled to the circumferential surface of the window panel 220 are connected by the connector 500. That is, as shown in FIGS. 1 to 4, the connector 500 is coupled to the one-touch type by the slide fitting method along the side frame 400, and the casing is completed by the assembly operation without a separate welding operation.

The back cover 300 is located at the rear portion of the LED lighting module 100 and the back cover 300 may also be manufactured by press molding in a shape having a plurality of heat-dissipating through holes 310 made of aluminum.

Meanwhile, the side frame 400 may be integrally formed with the front flange 410 seated along each side surface of the window panel 220 to support and fix the window panel 200, and the LED lighting module 100 may be opposite to the rear side. The rear flange 420, which can be coupled by closely attaching the back cover 300 in the state of seating), can be formed as a single body, and both ends of the guide rails 430 can be fitted by sliding the connector 500. Formed by a single press process to connect the corner parts to each other through the connector 500, the coupling of the side frame 400 is completed by simply fitting the slide operation without a separate welding operation.

The connector 500 for connecting and coupling the end of the side frame 400 is preferably formed by bending the shape of the body in a 'b' shape in order to connect the end of the side frame 400 to connect to each other. And the corner portion can be processed in a round shape, as shown in the drawing can provide a design aesthetic that can not be obtained in sheet metal or other operations.

Both ends of the body of the connector 500 form a slide rail 510 fitted to the guide rail 430 of the side frame 400 in a shape corresponding to both ends thereof so that the side frame 400 is one-touched through the connector 500. By inducing slide coupling, casing assembly can be completed by slide coupling without additional welding work.

In addition, the rear portion of the back cover 300 is installed by installing the mounting bracket 610 is coupled to the side frame 400 and supported on the mounting bracket 610 by mounting the mounting bracket 600 on the wall It is also possible to install or hang on the mounting bracket 600 can be held by the hand has the advantage of convenient and free to carry and move.

Both sides of the mounting bracket 600 is coupled to the hinge bracket so as to be rotatable with the connecting bracket 610 and the hinge pin 640 is formed on the peripheral portion of the hinge shaft by forming a hinge groove 630. If it can be rotated according to the installation angle can be adjusted through the hinge groove (630).

In the casing of the modular LED lighting fixtures, the protective cover 800 may be installed on the back of the back cover 300 as necessary, but is not necessary.

The protective cover 800 may be installed to cover the back of the back cover 300 as shown in FIGS. 12 and 13, and the protective cover 800 installed in this way may prevent external foreign substances from entering and protect the heat sink 130. It is therefore suitable for casings for interior and exterior lighting.

As such, the present invention is configured to form all the parts required for casing the modular LED lighting fixture by the press process and to form them in a simple fitting and joining form without welding work, thereby structurally implementing various selectivity and light weight of the housing material. There are advantages to it.

Furthermore, by enabling the use of materials with excellent thermal conductivity such as aluminum, the casing structure itself can be heat-dissipated indispensable to the LED luminaire, thereby obtaining a high-performance luminaire casing that can extend the life of the LED luminaire. There is an advantage.

In the manufacture of housings for casing of modular LED luminaires, each part can be completed by a single press molding process, which simplifies manufacturing, enables multi-piece production and low-cost manufacturing.

In addition, casing parts are made of aluminum and can be continuously manufactured by extrusion press method so that the parts can be shared for the size change according to the capacity of the LED module, and the casing of various specifications can be completed without additional cost due to the size change. There is an advantage.

As described above, the present invention has been described with reference to the drawings and specification, with reference to an embodiment of the invention, but it is an example. Those skilled in the art can make various modifications and equivalent implementations.

100: LED lighting module
110: LED device (LED)
120: substrate
130: heat sink
200: front cover
210: through hole
220: window panel
230: shaft pin
300: back cover
310: through hole
320: pinhole
400: sideframe
410: front flange
420: rear flange
430: guide rail
500: Connector
510: slide rail
600: mounting bracket
610: connecting bracket
630: hinge groove
640: hinge pin
700: front glass
800: protective cover
810: heat radiation vent

Claims (7)

The LED lighting module 100 includes a substrate 120 on which the heat sink 130 is coupled and the LED elements 110 are arranged, and covers the front surface of the LED element 110 in front of the LED lighting module 100. In the casing device of the modular LED lighting fixture consisting of a front cover 200 to protect, and a back cover 300 covering the back of the LED lighting module 100,
A window panel 220 formed on the front cover 200 and having at least one transmission hole 210 formed therein to transmit light emitted from the LED lighting module 100;
A side frame 400 which finishes the edge of the window panel 220 in a form surrounding the edge of the window panel 220;
A connector (500) for connecting and connecting the side frames (400) to each other in order to interconnect the end nodes of the respective side frames (400) coupled to the circumferential surface of the window panel (220) and maintain their connection state;
Casing device of the modular LED lighting device, characterized in that consisting of ;; the back cover 300 is formed with a heat sink pass hole 310 to increase the heat dissipation by exposing the heat dissipation plate 130 of the LED lighting module 100 to the outside . The method of claim 1,
The rear surface of the window panel 220 has a shaft pin 230 that is coupled to the back cover 300 is located in the rear portion passing through the substrate 110 of the LED module 100, the back cover Casing device of the modular LED lighting fixture, characterized in that the pinhole 320 is formed in a position corresponding to the shaft pin 230 is fitted to be fixed to (300). The method of claim 1,
The side frame 400 is seated along each side surface of the window panel 220 has a front flange 410 for supporting and fixing the window panel 220, the rear side of the opposite side seats the LED lighting module 100 It consists of a rear flange 420 that can be coupled to the back cover 300 in close contact, and formed by forming a guide rail 430 on both ends to slide the connector 500 to be fitted to Casing device of modular LED lighting fixture. The method of claim 1,
The connector 500 for connecting and coupling the end of the side frame 400 is formed of a body bent in a 'b' shape in order to connect the end of the side frame 400 to connect to each other, the body of the Both ends of the slide rail 510 fitted to the guide rail 430 of the side frame 400 is configured in a shape corresponding to both ends can slide the side frame 400 in one-touch through the connector 500. Casing device of the modular LED lighting fixture, characterized in that configured to. The method of claim 1,
The rear portion of the back cover 300 is configured by installing a connection bracket 610 is coupled to the side frame 400 is supported,
Casing device of the modular LED lighting fixture, characterized in that the mounting bracket 600 is mounted to the mounting bracket (600). The method of claim 5, wherein
Both sides of the mounting bracket 600 are coupled to the hinge shaft so as to be rotatable with the connecting bracket 610 and the hinge pin 640 on the side of the hinge shaft to form a hinge groove 630 for the connection bracket 610. Casing device of the modular LED lighting fixture, characterized in that configured to adjust the rotation angle along). The method of claim 1,
By installing a separate protective cover 800 on the back of the back cover 300 is configured to prevent the entry of foreign matter and to protect the heat dissipation unit,
The protective cover 800 is a casing device of the modular LED lighting fixture, characterized in that configured to maintain the heat exchange performance by forming a heat radiation vent (810) for maintaining the heat exchange performance.

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